/* DECODE.C - An LZW decoder for GIF
 * Copyright (C) 1987, by Steven A. Bennett
 *
 * Permission is given by the author to freely redistribute and include
 * this code in any program as long as this credit is given where due.
 *
 * In accordance with the above, I want to credit Steve Wilhite who wrote
 * the code which this is heavily inspired by...
 *
 * GIF and 'Graphics Interchange Format' are trademarks (tm) of
 * Compuserve, Incorporated, an H&R Block Company.
 *
 * Release Notes: This file contains a decoder routine for GIF images
 * which is similar, structurally, to the original routine by Steve Wilhite.
 * It is, however, somewhat noticably faster in most cases.
 *
 == This routine was modified for use in FRACTINT in two ways.
 ==
 == 1) The original #includes were folded into the routine strictly to hold
 ==    down the number of files we were dealing with.
 ==
 == 2) The 'stack', 'suffix', 'prefix', and 'decoderline' arrays were
 ==    changed from static and 'malloc()'ed to external only so that
 ==    the assembler program could use the same array space for several
 ==    independent chunks of code.  Also, 'stack' was renamed to 'dstack'
 ==    for TASM compatibility.
 ==
 == 3) The 'out_line()' external function has been changed to reference
 ==    '*outln()' for flexibility (in particular, 3D transformations)
 ==
 == 4) A call to 'driver_key_pressed()' has been added after the 'outln()' calls
 ==    to check for the presenc of a key-press as a bail-out signal
 ==
 == (Bert Tyler and Timothy Wegner)
 */

/* Rev 01/02/91 - Revised by Mike Gelvin
 *                altered logic to allow newcode to input a line at a time
 *                altered logic to allow decoder to place characters
 *                directly into the output buffer if they fit
 */


/***** Application Includes *********************************************/
  /* see Fractint.c for a description of the "include"  hierarchy */
#include "port.h"
#include "prototyp.h"
#include "drivers.h"

/***** Application Function Prototypes **********************************/
static short get_next_code(void);

/* extern short out_line(pixels, linelen)
 *     UBYTE pixels[];
 *     short linelen;
 *
 *   - This function takes a full line of pixels (one byte per pixel) and
 * displays them (or does whatever your program wants with them...).  It
 * should return zero, or negative if an error or some other event occurs
 * which would require aborting the decode process...  Note that the length
 * passed will almost always be equal to the line length passed to the
 * decoder function, with the sole exception occurring when an ending code
 * occurs in an odd place in the GIF file...  In any case, linelen will be
 * equal to the number of pixels passed...
 */
int (*outln) (BYTE *, int) = out_line;

/***** Local Static Variables *******************************************/
/* Various error codes used by decoder
 * and my own routines...   It's okay
 * for you to define whatever you want,
 * as long as it's negative...  It will be
 * returned intact up the various subroutine
 * levels...
 */
#define OUT_OF_MEMORY -10
#define BAD_CODE_SIZE -20
#define READ_ERROR -1
#define WRITE_ERROR -2
#define OPEN_ERROR -3
#define CREATE_ERROR -4

#define MAX_CODES   4095

#define NOPE 0
#define YUP -1

static short curr_size;         /* The current code size */

/* The following static variables are used
 * for seperating out codes
 */
static short navail_bytes;      /* # bytes left in block */
static short nbits_left;        /* # bits left in current byte */
static BYTE *byte_buff;         /* Current block, reuse shared mem */
static BYTE *pbytes;            /* Pointer to next byte in block */

static short code_mask[13] =
{
   0,
   0x0001, 0x0003,
   0x0007, 0x000F,
   0x001F, 0x003F,
   0x007F, 0x00FF,
   0x01FF, 0x03FF,
   0x07FF, 0x0FFF
};

/***** External Variables ***********************************************/
/* extern short bad_code_count;
 *
 * This value is the only other global required by the using program, and
 * is incremented each time an out of range code is read by the decoder.
 * When this value is non-zero after a decode, your GIF file is probably
 * corrupt in some way...
 *
 * whups, here are more globals, added by PB:
 * extern short skipxdots;  0 to get every dot, 1 for every 2nd, 2 every 3rd, ...
 * extern short skipydots;
 *
 * All external declarations now in PROTOTYPE.H
 */


/*
I removed the LOCAL identifiers in the arrays below and replaced them
with 'extern's so as to declare (and re-use) the space elsewhere.
The arrays are actually declared in the assembler source.
                                                Bert Tyler
*/

#if 0
/* declarations moved to PROTOTYPE.H - these left for documentation */
BYTE dstack[MAX_CODES + 1];     /* Stack for storing pixels */
BYTE suffix[MAX_CODES + 1];     /* Suffix table */
unsigned short prefix[MAX_CODES + 1];   /* Prefix linked list */
BYTE decoderline[2];            /* decoded line goes here */
#endif

/* avoid using fixed near arrays by enabling next */
#if 0
BYTE dstack1[MAX_CODES + 1];     /* Stack for storing pixels */
#define dstack dstack1
#endif

#if 0 /* remove this when suffix no longer used in diskvid.c */
BYTE suffix1[MAX_CODES + 1];     /* Suffix table */
#define suffix suffix1
#endif

#if 0
unsigned short prefix1[MAX_CODES + 1];   /* Prefix linked list */
#define prefix prefix1
#endif

/* for the time being, use a pointer to a buffer in the gifview stack */
extern BYTE *decoderline1;
#define decoderline decoderline1

/* The reason we have these separated like this instead of using
 * a structure like the original Wilhite code did, is because this
 * stuff generally produces significantly faster code when compiled...
 * This code is full of similar speedups...  (For a good book on writing
 * C for speed or for space optimization, see Efficient C by Tom Plum,
 * published by Plum-Hall Associates...)
 */


/***** Program **********************************************************/
/* short decoder(linewidth)
 *    short linewidth;              * Pixels per line of image *
 *
 * - This function decodes an LZW image, according to the method used
 * in the GIF spec.  Every *linewidth* "characters" (ie. pixels) decoded
 * will generate a call to out_line(), which is a user specific function
 * to display a line of pixels.  The function gets its codes from
 * get_next_code() which is responsible for reading blocks of data and
 * seperating them into the proper size codes.  Finally, get_byte() is
 * the global routine to read the next byte from the GIF file.
 *
 * It is generally a good idea to have linewidth correspond to the actual
 * width of a line (as specified in the Image header) to make your own
 * code a bit simpler, but it isn't absolutely necessary.
 *
 * Returns: 0 if successful, else negative.  (See ERRS.H)
 *
 */

/* moved sizeofstring here for possible re-use elsewhere */
short sizeofstring[MAX_CODES + 1];  /* size of string list */

short decoder(short linewidth)
{
#if defined(XFRACT) || defined(_WIN32)
   U16 prefix[MAX_CODES+1];     /* Prefix linked list */
#endif
   BYTE *sp;
   short code;
   short old_code;
   short ret;
   short c;
   short size;
   short i;
   short j;
   short fastloop;
   short bufcnt;                /* how many empty spaces left in buffer */
   short xskip;
   short slot;                  /* Last read code */
   short newcodes;              /* First available code */
   BYTE *bufptr;
   short yskip;
   short top_slot;              /* Highest code for current size */
   short clear;                 /* Value for a clear code */
   short ending;                /* Value for a ending code */
   BYTE out_value;

   /* Initialize for decoding a new image... */

   if ((size = (short) get_byte()) < 0)
      return (size);
   if (size < 2 || 9 < size)
      return (BAD_CODE_SIZE);

   curr_size = (short) (size + 1);
   top_slot = (short) (1 << curr_size);
   clear = (short) (1 << size);
   ending = (short) (clear + 1);
   slot = newcodes = (short) (ending + 1);
   navail_bytes = nbits_left = sizeofstring[slot] = xskip = yskip
      = old_code = 0;
   out_value = 0;
   for (i = 0; i < slot; i++)
   {
      sizeofstring[i] = 0;
   }

   /* Initialize in case they forgot to put in a clear code. (This shouldn't
    * happen, but we'll try and decode it anyway...) */

   /* Set up the stack pointer and decode buffer pointer */
   sp = dstack;
   bufptr = decoderline;
   bufcnt = linewidth;

   /* This is the main loop.  For each code we get we pass through the linked
    * list of prefix codes, pushing the corresponding "character" for each
    * code onto the stack.  When the list reaches a single "character" we
    * push that on the stack too, and then start unstacking each character
    * for output in the correct order.  Special handling is included for the
    * clear code, and the whole thing ends when we get an ending code. */
   while ((c = get_next_code()) != ending)
   {

      /* If we had a file error, return without completing the decode */
      if (c < 0)
         return (0);

      /* If the code is a clear code, reinitialize all necessary items. */
      if (c == clear)
      {
         curr_size = (short) (size + 1);
         slot = newcodes;
         sizeofstring[slot] = 0;
         top_slot = (short) (1 << curr_size);

         /* Continue reading codes until we get a non-clear code (Another
          * unlikely, but possible case...) */
		 do
		 {
			c = get_next_code();
		 } while (c == clear);

         /* If we get an ending code immediately after a clear code (Yet
          * another unlikely case), then break out of the loop. */
         if (c == ending)
            break;

         /* Finally, if the code is beyond the range of already set codes,
          * (This one had better NOT happen...   I have no idea what will
          * result from this, but I doubt it will look good...) then set it
          * to color zero. */
         if (c >= slot)
            c = 0;

         out_value = (BYTE) (old_code = c);

         /* And let us not forget to put the char into the buffer... */
         *sp++ = (BYTE) c;
      }
      else
      {
         /* In this case, it's not a clear code or an ending code, so it must
          * be a code code...  So we can now decode the code into a stack of
          * character codes. (Clear as mud, right?) */
         code = c;

         /* Here we go again with one of those off chances...  If, on the off
          * chance, the code we got is beyond the range of those already set
          * up (Another thing which had better NOT happen...) we trick the
          * decoder into thinking it actually got the next slot avail. */

         if (code >= slot)
         {
            if (code > slot)
            {
               ++bad_code_count;
               c = slot;
            }
            code = old_code;
            *sp++ = out_value;
         }

         /* Here we scan back along the linked list of prefixes.  If they can
          * fit into the output buffer then transfer them direct.  ELSE push
          * them into the stack until we are down to enough characters that
          * they do fit.  Output the line then fall through to unstack the
          * ones that would not fit. */
         fastloop = NOPE;
         while (code >= newcodes)
         {
            j = i = sizeofstring[code];
            if (i > 0 && bufcnt - i > 0 && skipxdots == 0)
            {
               fastloop = YUP;

               do
               {
                  *(bufptr + j) = suffix[code];
                  code = prefix[code];
               } while (--j > 0);
               *bufptr = (BYTE) code;
               bufptr += ++i;
               bufcnt -= i;
               if (bufcnt == 0) /* finished an input row? */
               {
                  if (--yskip < 0)
                  {
                     if ((ret = (short) ((*outln) (decoderline, (int) (bufptr - decoderline)))) < 0)
                        return (ret);
                     yskip = skipydots;
                  }
                  if (driver_key_pressed())
                     return (-1);
                  bufptr = decoderline;
                  bufcnt = linewidth;
                  xskip = 0;
               }
            }
            else
            {
               *sp++ = suffix[code];
               code = prefix[code];
            }
         }

         /* Push the last character on the stack, and set up the new prefix
          * and suffix, and if the required slot number is greater than that
          * allowed by the current bit size, increase the bit size.  (NOTE -
          * If we are all full, we *don't* save the new suffix and prefix...
          * I'm not certain if this is correct... it might be more proper to
          * overwrite the last code... */
         if (fastloop == NOPE)
            *sp++ = (BYTE) code;

         if (slot < top_slot)
         {
            sizeofstring[slot] = (short) (sizeofstring[old_code] + 1);
            suffix[slot] = out_value = (BYTE) code;
            prefix[slot++] = old_code;
            old_code = c;
         }
         if (slot >= top_slot)
            if (curr_size < 12)
            {
               top_slot <<= 1;
               ++curr_size;
            }
      }
      while (sp > dstack)
      {
         --sp;
         if (--xskip < 0)
         {
            xskip = skipxdots;
            *bufptr++ = *sp;
         }
         if (--bufcnt == 0)     /* finished an input row? */
         {
            if (--yskip < 0)
            {
               if ((ret = (short) ((*outln) (decoderline, (int) (bufptr - decoderline)))) < 0)
                  return (ret);
               yskip = skipydots;
            }
            if (driver_key_pressed())
               return (-1);
            bufptr = decoderline;
            bufcnt = linewidth;
            xskip = 0;
         }
      }
   }
   /* PB note that if last line is incomplete, we're not going to try to emit
    * it;  original code did, but did so via out_line and therefore couldn't
    * have worked well in all cases... */
   return (0);
}

/***** Program **********************************************************/
/* get_next_code()
 * - gets the next code from the GIF file.  Returns the code, or else
 * a negative number in case of file errors...
 */
static short get_next_code()
{
   static BYTE b1;              /* Current byte */
   static unsigned short ret_code;

   if (nbits_left == 0)
   {
      if (navail_bytes <= 0)
      {

         /* Out of bytes in current block, so read next block */
         pbytes = byte_buff;
         if ((navail_bytes = (short) get_byte()) < 0)
            return (navail_bytes);
         else if (navail_bytes)
            get_bytes(byte_buff, navail_bytes);
      }
      b1 = *pbytes++;
      nbits_left = 8;
      --navail_bytes;
   }

   ret_code = (short) (b1 >> (8 - nbits_left));
   while (curr_size > nbits_left)
   {
      if (navail_bytes <= 0)
      {

         /* Out of bytes in current block, so read next block */
         pbytes = byte_buff;
         if ((navail_bytes = (short) get_byte()) < 0)
            return (navail_bytes);
         else if (navail_bytes)
            get_bytes(byte_buff, navail_bytes);
      }
      b1 = *pbytes++;
      ret_code |= b1 << nbits_left;
      nbits_left += 8;
      --navail_bytes;
   }
   nbits_left -= curr_size;
   return ((short) (ret_code & code_mask[curr_size]));
}

/* called in parent reoutine to set byte_buff */
void set_byte_buff(BYTE * ptr)
{
   byte_buff = ptr;
}
